Hongbin Sun 孙宏斌


E-mail : shb@tsinghua.edu.cn

Tel & Fax : 62783086-803


Prof. Hongbin Sun is Chang Jiang Scholar Professor of Electrical Engineering, head of Smart Grid Energy Management Research Group, and the deputy director of the Academic Affair Office, Tsinghua University. Prof. Sun is the co-author of over 280 peer-reviewed papers and 4 books. He held over 60 patents in China, one patent in USA and one patent in Europe.

He is currently IEEE senior member and IET Fellow. He also serves as the editor of the IEEE Transactions on Smart Grid, and a member of the Editorial Board of four international journals and two Chinese journals.

Prof. Sun has worked with industry for the last 18 years on electric power system operation and control issues with specific interests in the smart grids, renewable energy resource integration, electrical vehicle to power grid, demand response and energy storage. He has been awarded over ¥80M research grants as the principal investigator on electrical grid modernization issues. He is the principal investigator for an on-going MOST-sponsored 973 program which studies the next generation of Energy Management System (EMS) for smart grids.

He is also the principal investigator for several ongoing international collaborative projects on smart grid operation and control, such as Tsinghua-Berkeley joint research fund and China-UK Joint Research Fund (NSFC-RCUK_EPSRC). In recent 15 years, he led a research group at Tsinghua University to develop an energy management system (EMS), “the brain of power grid”, which has been applied to over 70 electrical power control centers in China.

He also has developed a system-wide automatic voltage control system (AVC), which has been put into operation in 5 regional power grids (5/6 of total China), 20 provincial power grids (2/3 of total China), 6 wind farm bases (3/4 of total China) and more than 60 large-scale wind farms. Until the end of 2013, there have been 540 large-scale power plants to be controlled by the innovative AVC, with the generation capacity of 508GW, which is about 50% of the total installed generation capacity in China. The innovative AVC has also been implemented in PJM, the largest regional power grid in North America covering 13 states including Washington DC, to pursue a balance result of security and economy for the PJM grid in USA.



Ph.D. in Electrical Engineering, Jan. 1997, Tsinghua University, Beijing, China

Double B.S. in Electrical Engineering & Applied Physics, Jul. 1992, Tsinghua University, Beijing, China



2012-present    Changjiang Scholar Professor, Education Ministry of P.R. China

2008-present    Deputy Director of the Academic Affair Office, Tsinghua University

2007-2008       Visiting Professor, School of Electrical Engineering and Computer Science, Washington State University, USA

2005-present    Professor, Department of Electrical Engineering, Tsinghua University

1999-2005       Associate Professor, Department of Electrical Engineering, Tsinghua University

1997-1999       Lecturer, Department of Electrical Engineering, Tsinghua University



In 2005, he received the First-Class Prize of China National Higher Education Achievements Award.

In 2008, he received the Second-Class Prize of China National Technology Innovation Award.

In 2009, he received the China National Distinguished Teacher Award.

In 2010, he received the National Science Fund for Distinguished Young Scholars.

In 2011, he was appointed as ChangJiang Scholar Professor by Education Ministry of China.

In 2012, he was elected as a Fellow of Institute of Engineering and Technology (IET).

In 2013, he was elected as National Outstanding Middle-aged Expert, and as to the National Talents Engineering.

In 2015, He received special government allowances of the State Council, and elected as a Leading Talent on Innovation by Ministry of Science and Technology.



40220723: Power system analysis (about 120 undergraduates per year, National Distinguished Course)

40220782 : Information theory and power systems (about 40 undergraduates per year)

80220222: Modern energy management system (about 30 graduates per year)



[1]“Smart Grid Energy Management and Control Based on Generation-Grid-Demand Coordination”, ¥38M, National Priority Basic Research Project (973 Program), Chinese Ministry of Science and Technology, 2013-2017

[2]“Fundamental Research on Power System Smart Dispatch and Control for Accommodation of Large-scale Renewable Power Generation (Dispatch Part)”, ¥3M, Innovative Research Group of NSFC, National Natural Science foundation of China, 2014-2016

[3]“Roleof  energy  storage  in  enhancing operation and stability performance of sustainable power systems (RESTORES)”, ¥3M, China-UK Joint Research Fund, 2014-2016

[4]“Smart Control Center for Smart Grids”, ¥2M, National Science Fund for Distinguished Young Scholars, National Natural Science foundation of China, 2011-2014

[5]“Exploiting Renewable Energies for a Sustainable Power Grid: A generalized aggregate modeling and control architecture for distributed energy resources”, $25k, Tsinghua-Berkley Joint Research Fund, 2014-2015

[6]“Study of Advanced Voltage Control System for BC Hydro System”,$40k, British Columbia Hydro and Power Authority, Canada, 2014-2015

[7]“Interaction system of Electric Vehicles and Power Grids”, ¥1.2M, International collaborating project on cutting-edge technology development of electric vehicle between USA and China, Ministry of Science and Technology, China, 2011-2013

[8]“Study on Integration of Electric Vehicles to Power Grids (V2G)”, ¥1.4M, The National High Technology Research Program (863 Program), Ministry of Science and Technology, China, 2011-2013

[9]“Study, Online Implementation, and Production of Automatic Voltage Control (AVC) System for the PJM Power Grid”, $260k, International collaborating project between USA and China, PJM interconnection, USA, 2008-2012



[1]Zhengshuo Li; Qinglai Guo; Hongbin Sun*; Shujun Xin; Jianhui Wang, "A New Real-Time Smart-Charging Method Considering Expected Electric Vehicle Fleet Connections," IEEE Transactions on Power Systems, V29, N6, 2014, Page(s): 3114-3115

[2]Hongbin Sun*, Qinglai Guo, Boming Zhang, Wenchuan Wu, Bin Wang, An Adaptive Zone Division Based Automatic Voltage Control System with Applications in China, IEEE Transactions on Power Systems. 2013,28(2):1816–1828

[3]Hongbin Sun*; Feng Gao ; Strunz, K. ; Boming Zhang,Analog-Digital Power System State Estimation Based on Information Theory-Part I: Theory, IEEE Transactions on Smart Grid, 2013, SG-4(3) : 1640 - 1646

[4]Zhengshuo Li, Qinglai Guo, Hongbin Sun*, Yao Wang, Shujun Xin, Emission-concerned Wind-EV Coordination on the Transmission Grid Side with Network Constraints: Concept and Case Study, IEEE Transactions on Smart Grid, 2013, SG-4(3) : 1692 -1704

[5]Qinglai Guo, Hongbin Sun*, Mingye Zhang, Jianzhong Tong, Boming Zhang, Bin Wang, Optimal Voltage Control of PJM Smart Transmission Grid: Study, Implementation, and Evaluation, IEEE Transaction on smart grid, 2013, SG-4(3) : 1665 - 1674



沈欣炜 博士,研究科学家

研究方向:电力系统/能源互联网/综合能源系统 规划与运行

Dr. Xinwei Shen, Research Scientist

research interests: power system/energy internet/integrated energy system planning and operation.


Google Scholar:https://scholar.google.com/citations?user=OTXEK8gAAAAJ&hl=zh-CN&oi=ao